|Publication number||US7469905 B2|
|Application number||US 11/411,551|
|Publication date||Dec 30, 2008|
|Filing date||Apr 26, 2006|
|Priority date||Nov 30, 2000|
|Also published as||EP2059705A1, US8834761, US20060192349, US20090065968, US20140346740, WO2007130044A1|
|Publication number||11411551, 411551, US 7469905 B2, US 7469905B2, US-B2-7469905, US7469905 B2, US7469905B2|
|Original Assignee||Springseal Inc.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (91), Referenced by (16), Classifications (18), Legal Events (3)|
|External Links: USPTO, USPTO Assignment, Espacenet|
The present application is a continuation-in-part application containing common subject matter as previously filed and application Ser. No. 10/419,541, filed in the U.S. Patent and Trademark Office on Apr. 21, 2003 now abandoned, entitled “PERMANENTLY LUBRICATED GASKET”, which is a continuation-in-part of U.S. application Ser. No. 09/998,697, filed in the U.S. Patent and Trademark Office on Nov. 30, 2001, to issue as U.S. Pat. No. 6,550,775, entitled “ANNULAR GASKET,” which is a continuation-in-part of U.S. patent application Ser. No. 09/726,814 filed in the U.S. Patent and Trademark Office on Nov. 30, 2000, entitled “ANNULAR GASKET WITH LOCKING STRUCTURE,” now U.S. Pat. No. 6,367,802. The present application claims priority the aforementioned patents and patent applications, which are incorporated in their entirety herein by reference for all purposes.
The present invention relates to elastomeric gaskets for providing a seal between a pair of tubular members and, more specifically, to a gasket having at least a portion being made from thermoplastic embedded with a lubricating chemical film that permanently imparts properties of a lubricant from the gasket to the contacting surface of one of the tubular members.
It is well known to form a seal between two pipe sections, such as two corrugated pipe sections, where the end of one of the pipe sections has annular grooves and one of the pipe sections has an enlarged bell portion at one end. Some prior art elastomeric gaskets are placed around the end of the pipe section having annular grooves. The pipe section having annular grooves is inserted into an enlarged bell portion of a second pipe section. The elastomeric gasket contacts each of the pipe sections to form a seal between the pipe sections.
Typically, a large frictional force is encountered when the inner pipe and the elastomeric gasket is inserted into the outer pipe. As one end of the inner pipe is pushed into the enlarged end or bell of the outer pipe section or pipe connector, the gasket is sometimes pulled from the groove by the large frictional force. When the pipe is not properly sealed, ground water may leak into the pipe or fluid may leak out of the pipe and contaminate the ground.
Lubricant has been manually applied to elastomeric gaskets before the inner pipe and the gasket is inserted into the outer pipe. The lubricant reduces the frictional force between the gasket and the outer pipe. The reduced frictional force reduces the likelihood that the gasket will be pulled from the groove by the frictional force. The manual application of the lubricant is labor intensive and is usually performed in a trench or ditch making the lubricant susceptible to being removed by water frequently found in such environments. In addition, the manually applied lubricant is wiped from the gasket if the pipe joint is disassembled. As a result, the lubricant must be reapplied before the pipe joint is reassembled.
Costly secondary operations have also been developed for applying anti-frictional coatings to gasket surfaces. A secondary operation occurs when the lubricant is applied to the gasket after the gasket is cured. An example applying a lubricant in a secondary operation appears in U.S. Pat. No. 6,328,309 to Corbett. In particular, Corbett depicts a spray-on lubricant that is applied after the gasket is hardened. Secondary operations as taught in Corbett typically require additional steps such as heat treatment and/or prescribed cooling periods before the product is finished. In addition, the spray operations lack the ability to control the thickness of the lubricant coatings and the coatings often crack inhibiting the gaskets ability to stretch or compress without resulting in seal failure.
Prior art methods have been developed that self lubricate gaskets as they are assembled. For example, U.S. Pat. No. 4,365,818 to Tolliver discloses a seal including a cavity containing a lubricant, which is released when one pipe joint is slid over the seal. U.S. Pat. No. 5,143,381 to Temple is directed to a seal, which has an internal chamber containing a lubricant. A slit in the body of the seal extends into the chamber. When one pipe is moved over another pipe end, the slit is spread, thereby releasing the lubricant against the sealing surface. U.S. Pat. No. 5,626,349 to Sutherland et al. concerns a sealing ring containing a lubricant enclosed within a membrane formed on the ring's body. When a connecting pipe is slid into the pipe joint, the membrane is ruptured, releasing the lubricant and reducing the frictional forces imparted on the sealing ring during the joining of the pipes. U.S. Pat. No. 5,735,528 to Olsson discloses a seal containing a lubricant. The lubricant migrates to the surface of the seal, thereby providing self-lubricating properties. Each of these methods provide the lubricant only the first time, or a limited number of times, the gasket forms a seal. The lubricant is eventually wiped off or spent. After the lubricant is wiped off or spent, a lubricant may need to be manually applied to ensure a proper seal.
In Applicant's application Ser. No. 10/419,541, filed in the U.S. Patent and Trademark Office on Apr. 21, 2003, entitled “PERMANENTLY LUBRICATED GASKET” incorporated herein by reference uses a lubricating agent additive that migrates to the surface of the gasket. This approach lowers the coefficient of friction “COF” and allows the pipe to be assembled without lubrication. The migration results in an oily texture on the surface of the gasket that can be undesirable in certain applications.
Another potential shortcoming of using a migrating lubricating agent or additive is creating a condition having a heightened disposition to contamination. A migrating lubricant agent produces an oily texture on the gasket surface that attracts dust and debris, which can lead to leaks and failure in the pipe joint when assembled. There also exists a problem of chemical migration to areas undesirable of lubrication.
There is a need for a gasket combined with a permanent lubricating chemical film resistant to contamination and propitious to welding operations while maintaining lubrication regardless of the frequency that the joint is assembled and disassembled. In addition there exists a need for a gasket to include a lubricating portion that is integrated within the gasket during the extrusion process eliminating a need for labor and cost intensive secondary operations. While yet a need exists for a gasket having a lubricated portion susceptible to compression and expansion without cracking, while retaining lubrication within a controlled location.
The lubricated film gasket concerns a permanently lubricated annular gasket for providing a fluid-tight seal between an inner pipe and a smooth annular section of an outer pipe or section when the corrugated pipe and the outer pipe or section are in a relative surrounded and surrounding relationship. A first portion of the gasket is shaped to fit within a groove or recess of the corrugated pipe. A second portion of the gasket extends from the first portion. The second portion includes a leading edge partially comprised of a permanently lubricating chemical film. The second portion is configured to make sealing contact with the outer pipe or section when the corrugated pipe and the outer pipe or section is in a relative surrounded and surrounding relationship.
In one embodiment, the first portion, second portion, and permanently lubricating chemical film are combined during the injection molding process. In this embodiment, the first portion has a first durometer and the second portion has a second durometer that is less than the first durometer. In this embodiment, the second portion may include a non-lubricated portion and a permanently lubricated portion that is permanently lubricated by the lubricating chemical film. In this embodiment, the gasket may be tri-extruded such that the permanently lubricated chemical film is embedded within a substantial portion of the leading edge of the second portion and the lubricating film, second portion, and first portion are formed together during a single extrusion operation.
In another embodiment, the permanently lubricated annular gasket includes a single body portion of a particular durometer suitable such that the body portion is capable of residing within a recess of an inner pipe at a first end and creates a sealing engagement with at coacting outer pipe at a second end. The permanently lubricated chemical film is coextruded with the body portion along a substantial portion of a leading edge at the second end during a single extrusion operation.
In an alternative embodiment, the permanently lubricated chemical film is coextruded with the second portion. Subsequent to the forming of the chemical film within the second portion is the coextruding of the second and first portions.
In another embodiment, the second portion and the permanently lubricating chemical film are joined at a die head or through an injection mold process. Such approach eliminates the need for any labor and cost intense secondary operation.
In yet another embodiment the lubricating film is made from materials having a low COF and more specifically a value of 0.5 or less. In one embodiment the COF is preferably 0.3. Examples of suitable low COF materials include polypropylene or polyethylene, which typically provide a 0.3 COF value. The lubricating film is combined to the second portion along a substantial portion of the leading edge and the film comprises a very thin layer ranging from 0.001″-0.010″ and preferably having a thickness between 0.003″-0.005″.
Another feature is that in most applications the lubricating film forms a protective shell over the gasket minimizing the potential for tearing or cuts in the material. Yet another feature of the lubricating film is the ability to integrate the film to controlled areas along the leading edge of the second portion, thereby allowing a trailing portion of the second portion to lock or grip the pipe when forces are applied opposite the direction of the lubricating film.
Another feature is the controlled placement and static characteristics of the lubricating film, which substantially reduces the potential for failure when performing welding and joining operations to the ends of the gasket.
These and other advantages and features of the exemplary embodiments of the lubricated film gasket and method of manufacture are described in detail in conjunction with the accompanying drawings.
The present invention is directed to a permanently lubricated film annular gasket 10, depicted in
Referring again to
The lubricating film 11 reduces the COF between tubular members 12 and 18 during the interconnecting of the members. Because the lubrication is produced from a film, the target areas for lubrication can be controlled and isolated. This provides several advantages such as a reduced risk of failure at welded connections because the joining portions of the gaskets are virtually lubricant free, unlike self-lubricating gaskets where the lubrication tends to migrate into undesirable areas. Another advantage of film lubrication is that after the pipe is assembled, the non-lubricated trailing edge 13 b acts as a lock, gripping the pipe, thereby resisting separation between the tubular members. Yet another advantage of the film lubrication is the ability to simultaneously extrude the lubricating film with any number of desired extrudates, thus eliminating costly secondary operations for applying lubrication to a gasket.
The figures illustrate one example of a physical configuration of a permanently lubricated gasket. However, the inventive permanently lubricated film gasket 10 could take any physical form without departing from the spirit and scope of the claimed invention. Referring to
In the illustrated embodiment, the support portion 24 includes an anchor portion 28 shaped to fit within the recess 22 in a ridge 16 of the corrugated pipe and a tip portion 30 that extends radially outward from the anchor portion 28. In an alternate embodiment, (not illustrated) the anchor portion 28 is shaped to fit within a groove 14 in the corrugated pipe. Referring to
The anchor portion 28 is shaped to fit within the recess 22 in a ridge 16 in the corrugated pipe. The shape of the anchor portion 28 can be changed to fit within recesses having different shapes or to fit within a groove 14 in the corrugated pipe. Referring to
In the exemplary embodiment, a harder material typically having a range of 60-70 durometer is used to construct the support portion 24. Some examples of a suitable material would include 70-durometer santoprene, styrene ethylbutylene styrene (“SEBS”), and thermoplastic vulcanizate (“TPV”). Use of a harder material for constructing the support portion 24 increases the force required to fold the tip portion 30 over. The result is that a tighter seal is provided against the smooth annular section 20 and the ridge 16. The material used in the support portion 24 also reinforces the pipe corrugation, reducing the amount deflection when pressure is applied. It should be readily apparent that other filler material could be used to construct the support portion 24 of the gasket 10. The elastomeric gasket portion 26 is made from a second material having a durometer that is less than the durometer of the support portion 24. In the exemplary embodiment the second elastomeric gasket portion 26 is preferably made from a material having a 40 to 50 durometer range. Some examples of suitable material include 40-50 durometer santoprene, isoprene, and ethylene propylene diene monumer (EPDM). It should also be readily apparent that the support portion 24 could be made from the same material that the gasket portion 26 to eliminate the coextrusion process between the support and gasket portions.
The illustrated elastomeric gasket portion 26 includes first and second leg portions 54 a, 54 b connected by a central portion 56. The central portion 56 covers the tip portion 30 of the support portion 24. The central portion 56 can be configured in any shape that makes contact with the smooth annular section 20.
In the exemplary embodiment the permanently lubricating film 11 extends from the radially outer surface 52 a to the central portion 56 of the leading edge 13 a of the gasket portion 26. It should be apparent that it may be desirable to cover more or less of the surface area of the leading edge 13 a depending on the tubular member configuration and particular application. The first and second leg portions 54 a, 54 b cover the radially outer surfaces 52 a, 52 b of the anchor portion 28 and extend laterally of the first and second side surfaces 32 a, 32 b of the anchor portion 28. In the exemplary embodiment, the permanently lubricating film 11, gasket portion 26, and the support portion 24 are triextruded. In another embodiment, the support portion and the gasket portion are bonded together by some means other than co-extrusion. The gasket may be attached to the support portion by adhesives or any other acceptable attachment method.
The gasket 10 can be made by extruding a length of gasket material and connecting its ends together by gluing, vulcanization, injection molding, or a welding process. For example, an annular gasket 10 for an 18 inch pipe would be formed of a 57.5 inch of gasket material. An annular gasket 10 for a 24 inch pipe would be formed from a 76.0 inch length of gasket material. The annular gasket 10 can also be molded to eliminate the step of connecting the gasket ends, while remaining conducive to embedding the permanently lubricating film 11 along the leading edge 13 a of the gasket portion 26.
Referring again to
In addition, since the material of the anchor portion 28 is harder than the gasket portion 26 material, the anchor portion 28 material reinforces the pipe corrugation, reducing the amount of deflection of the pipe corrugation when pressure is applied. Referring to
Referring to the embodiment of
The method of manufacture in the exemplary embodiment includes, at least one polymeric material being loaded into a first extruder and a permanently lubricated film material being loaded into a second extruder having a common extrusion die head assembly with the first extruder. In one embodiment the lubricated film 11 could be in a granular form prior to the extrusion process. The materials are located within the respective extruders and heated to a temperature range of 350 to 425 degree Fahrenheit, resulting in a molten state for both the polymeric and lubricating film gasket materials. Once the prescribed temperature is reached, which in the exemplary embodiment is preferably slightly above or at 350 degrees, the polymeric and film gasket materials are fed through the common die head assembly, forming a single extrusion gasket 10 with a lubricated film 11 embedded along a select portion of the gasket. After which, the extrusion is typically fed through a water bath for cooling to a prescribed temperature level before being cut and welded.
In another embodiment, the permanently lubricated film 11 is preformed prior to the extrusion process. As such, the film 11 remains in a solid state during the heating and extruding processes while being formed with the polymeric material or materials. In another embodiment, the low COF film 11 is applied to by spraying the film on the molten polymeric material just after the extrudate passes through the die head in the coextrusion or triextrusion process. The film being sprayed can include ultraviolet cured films. Such an example of an ultraviolet film would include, for example, polyether acrylate with 50% nano-scale silica currently being sold by BASF Coatings AG under the tradename LAROMER® PO 9026 V. Other types of suitable spray films can be films capable of being chemically or thermally cured. In yet another embodiment, the polymeric materials have differing compositions and durometer values as discussed earlier.
It will be understood that various modifications can be made without departing from the spirit and scope of the invention.
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|U.S. Classification||277/608, 277/609, 285/903, 277/627, 277/616|
|International Classification||F16L21/02, F16L17/025, F16L17/06|
|Cooperative Classification||F16L25/0054, F16L17/025, Y10S285/903, F16J15/027, F16L21/035, F16L25/0036|
|European Classification||F16L17/025, F16L25/00K, F16L21/035, F16L25/00K4|
|Apr 26, 2006||AS||Assignment|
Owner name: SPRINGSEAL INC., OHIO
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:KNAPP, MARK;REEL/FRAME:017817/0305
Effective date: 20060426
|Jul 2, 2012||FPAY||Fee payment|
Year of fee payment: 4
|Jun 30, 2016||FPAY||Fee payment|
Year of fee payment: 8